Information about vitamin d deficiency symptoms





 

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Vitamin D
=========

What is it?
-----------
Vitamin D is both a hormone and a vitamin. It was identified in the
1920s after a long search for the cause and cure of rickets, which had
been a significant health problem since the industrialization of
northern Europe. Vitamin D is obtained from food sources and is also
manufactured in the skin through the action of sunlight. There are
three forms of vitamin D: vitamin D1 (calciferol), vitamin D2
(ergocalciferol) and vitamin D3 (cholecalciferol). Vitamin D2 is the
form most commonly added to foods and nutritional supplements. These
forms of vitamin D are converted in the liver and kidneys to the
hormone, calcitriol, which is the physiologically active form of
vitamin D.

What it does in the body
------------------------
Bones and teeth

The most important role of vitamin D is to maintain blood calcium
levels within an acceptable range. It stimulates intestinal calcium
absorption and re-absorption in the kidneys, and regulates the
metabolism of calcium and phosphorus, which are vital for many body
functions including the normal growth and development of bones and
teeth. It enables bones and teeth to harden by increasing the
deposition of calcium into these structures and may also assist in the
movement of calcium across body cell membranes.
Cell growth

Vitamin D is involved in normal cell growth and maturation and may
play a part in cancer prevention. In test tube experiments, calcitriol
seems to have anticancer properties, inhibiting the growth of human
leukemia, colon cancer, skin cancer and breast cancer cells.
Immune system

Vitamin D is involved in the regulation of the immune system. It has
several functions including effects on white blood cells known as
monocytes and lymphocytes and seems to suppress function of several
parts of the immune system.
Hormones

Vitamin D plays a role in the secretion of insulin by the pancreas,
thus aiding in the regulation of blood sugar. Vitamin D suppresses
both the action of the parathyroid gland and the action of a hormone
from this gland and may play a role in the treatment of an overactive
parathyroid.
Nervous system

Careful regulation of calcium levels is vital for normal nerve impulse
transmission and muscle contraction. Vitamin D plays a role in the
functioning of healthy nerves and muscles by regulating the level of
calcium in the blood.
Absorption and metabolism
-------------------------

As with other fat soluble vitamins, fat in the intestine is necessary
for vitamin D absorption. Vitamin D from food and supplements is
absorbed through the intestinal walls and can be stored in the fat
cells of the liver, skin, brain and bones in amounts sufficient for
many months' consumption. Exposure to sunlight in spring, summer and
autumn usually makes up for any shortfall in dietary vitamin D and
even brief exposure to sunlight during these times is adequate. There
may, however, be problems in winter months in some climates. The
production of vitamin D in the body is blocked by anything which
blocks ultraviolet light including skin pigment, smog, fog, sunscreen,
windows and hats.
Deficiencies
------------

Vitamin D deficiency leads to increased production of parathyroid
hormone and the removal of calcium from the bones. In children, this
results in rickets, a disorder in which the bones are so soft that
they become curved from supporting the weight of the body. The
equivalent in adults is osteomalacia which involves a softening of
bones and causes bone pain and tenderness and muscle weakness. Other
signs of deficiency include severe tooth decay and hearing loss, which
is due to a softening of the bones in the inner ear.
Studies show that elderly people, particularly those who are
housebound or in institutions, may be at high risk of vitamin D
deficiency. A study published in 1998 in the New England Journal of
Medicine found vitamin D deficiency in 57 per cent of a group of 290
patients who were admitted to hospital. In a subgroup of the patients
who had no known risk factors for vitamin D deficiency, the
researchers found that 42 per cent were deficient. They concluded that
vitamin D deficiency was probably a substantial problem.1

There is some concern that the increasing use of sunscreens as skin
cancer preventives may increase the risk of vitamin D deficiency. This
is unlikely to be a problem in children and young people who do not
usually wear sunscreen every time they go outside. However, older
people who may be more concerned about sun damage to skin and who may
go outside less often are more likely to be at risk.
Vitamin D deficiency is more common in winter in cold climates. This
decline may lead to an increased risk of bone loss in elderly men and
women according to a 1997 study by researchers at Tufts University in
Boston. They examined vitamin D levels in 182 men and 209 women aged
over 65. Levels were found to be lower in women. In wintertime levels
were lower than in summertime. Travel, vitamin D intake and time spent
outdoors increased the vitamin D concentrations.2

Other groups at risk of deficiency include alcoholics, those with
gastrointestinal malabsorption disorders such as celiac disease, those
taking anticonvulsant drugs, those who don't drink milk or get much
sunlight, those with absorption problems and darker skinned people
living in colder climates. As vitamin D is converted in the liver and
kidneys to calcitriol, its active form, sufferers of kidney and liver
diseases may also be at risk of vitamin D deficiency.
Osteoporosis

Vitamin D regulates bone mineral density and a deficiency may lead to
osteoporosis, a disease in which bones become lighter, less dense and
more prone to fractures. (See page 653 for more information.) People
with a certain type of vitamin D receptor may be more susceptible to
osteoporosis. As the structure of the vitamin D receptor is
genetically determined, this may eventually lead to a test to identify
women at risk of the disease. Research suggests that women with
different types of vitamin D receptor respond differently to vitamin D
supplements given to build bone.3
Arthritis

Osteoarthrtitis
New research suggests that people with osteoarthritis who have low
vitamin D intakes suffer more severe symptoms than those whose intakes
are high. In a study done in 1996 researchers at Boston University
studied more than 500 elderly people with osteoarthritis of the knee.
They found that those with the lowest intakes and blood levels of
vitamin D were three times more likely to see their disease progress
than people with high intakes and blood levels. Vitamin D may help
reduce the cartilage damage seen in osteoarthritis.4

Rheumatoid arthritis
Severe rheumatoid arthritis is associated with bone loss. In a 1998
study, German researchers investigated the links between disease
activity and serum levels of vitamin D in 96 patients. They found that
high disease activity was associated with alterations in vitamin D
metabolism and increased bone breakdown. Low levels of vitamin D may
also increase the proliferation of white blood cells and may
accelerate the arthritic process in rheumatoid arthritis.5 Vitamin D
supplements are likely to be useful in retarding these adverse effects
of alterations in metabolism.

Cancer
Low levels of vitamin D have been linked to several cancers including
those of the colon, prostate and breast. Laboratory experiments show
that vitamin D can inhibit the growth of human prostate cancer6 and
breast cancer cells7. Lung cancer and pancreatic cancer8 cells may
also be susceptible to the effects of vitamin D. Sunlight also seems
to be protective against several types of cancer, including ovarian9
and breast cancers, and this effect may be mediated by vitamin D
levels.

Colorectal cancer
Several studies have suggested a link between low dietary vitamin D
intake and colorectal cancer risk. In a 1996 study, researchers
conducted a population-based case-control study to examine this
relationship among 352 people with colon cancer, 217 people with
rectal cancer, and 512 healthy people in Stockholm, Sweden. The
researchers used questionnaires to assess the vitamin D intake for the
preceding five years. The results showed that those with the highest
vitamin D intakes were around half as likely to get cancers of the
colon or rectum than those with the lowest intakes.10

Results from the Harvard Nurses Health Study published in 1996 suggest
a link between vitamin D and colorectal cancer. The study involved 89
448 female nurses and covered the time period from 1980 to 1992 during
which 501 cases of colorectal cancer were documented. The results
showed a link between intake of total vitamin D and risk of colorectal
cancer.11
Prostate cancer

Low vitamin D levels are linked to an increased risk of prostate
cancer. In a study published in 1996, researchers at Brigham and
Women's Hospital in Boston collected blood plasma samples from 14 916
participants in the Physicians' Health Study and measured vitamin D
levels. Their analysis included 232 cases diagnosed up to 1992 and 414
age-matched control participants. The results showed a slightly
reduced risk of prostate cancer in those with high vitamin D levels.12
The way a man's body utilizes vitamin D could affect his risk of
prostate cancer. A 1996 National Institute of Environmental Health
Sciences study has found that men with a particular type of vitamin D
receptor gene are less likely than others to develop the type of
prostate cancer that requires surgery. Researchers looked at the
receptor genes in 108 cancer patients and 170 men without cancer. The
results showed that 22 per cent of cancer patients had two copies of a
particular gene, while only 8 per cent of the cancer-free men did.
These findings support the theory that vitamin D plays an important
role in prostate cancer.13

Multiple sclerosis
There is some suggestion that abnormalities in vitamin D metabolism
may be linked to multiple sclerosis. The hormonal form of vitamin D
can prevent a disease similar to multiple sclerosis in mice. Multiple
sclerosis is more prevalent in areas where there is less exposure to
sunlight and some researchers believe that vitamin D protects against
the disease.14

Diabetes
Vitamin D deficiency impairs glucose metabolism by reducing insulin
secretion. This is likely to increase the risk of diabetes mellitus.
Vitamin D supplements are likely to be useful in preventing diabetes
in areas where vitamin D deficiency is common.15

In a 1997 study looking at the links between environmental factors and
Type II diabetes, vitamin D levels were assessed in 142 Dutch men aged
from 70 to 88 years of age. Thirty-nine per cent were found to have
low vitamin D levels and tests showed that low vitamin D levels
increased the risk of glucose intolerance.16
Heart disease

Low vitamin D levels may also increase the risk of atherosclerosis.
Research published in 1997 in the American Heart Association journal
Circulation suggests that a low level of vitamin D increases the risk
of calcium build-up in atherosclerotic plaques and that higher levels
reduce the risk of build-up. Researchers at UCLA School of Medicine
measured the vitamin D levels in the blood of 173 men and women at
risk of heart disease and also measured the build-up of calcium in
coronary arteries (a common finding in coronary artery disease). The
results suggest that calcium may regulate calcium deposition in the
arteries as well as in the bone.17
Other effects

Vitamin D deficiency may also play a role in inflammatory bowel
disease, tuberculosis, stroke and high blood pressure.
Sources
-------

Fish liver oils, sardines, herring, salmon, tuna, liver, eggs and some
dairy products are good dietary sources of vitamin D. Milk is often
fortified with vitamin D and is a good source, but dairy products
other than milk are not usually fortified with vitamin D.
Food

Amount
Vitamin D (IU)

Medicinal cod liver oil
  1. tbsp
2271

Pink salmon, canned
100g

624
Tuna, canned in oil
  1. can
404

Whole milk, dried
  1. cup
380

Oysters
  1. oysters
269

Mackerel, canned in oil
100g

252
Shiitake mushrooms, dried
  1. mushrooms
249

Sardines, canned in tomato sauce
  1. sardine
182

Fortified milk, evaporated
1/2 cup

97.9
Whole milk, fortified
  1. cup
92.7

Skim milk, fortified
  1. cup
92.7

Chocolate milk, fortified
  1. cup
92.7

Beef salami
  1. slice (23g)
80.3

Low fat milk, dried
1/4 cup

79.0
Sardines, canned in oil
  1. sardines
65.3

Herring, smoked
  1. fillet
48.0

Natural raisin bran
30g

45.6
Shrimp
  1. large
42.6

All Bran
30g

42.0
Bran flakes

30g
42.0

Corn flakes
30g

42.0
Special K

30g
42.0

Egg yolk
  1. large
24.6

Pork sausages
  1. sausage, 10cm long
14.6

Recommended dietary allowances (RDA)
------------------------------------
Men

Women
Pregnancy

Lactation
USA

200 IU
200 IU

200 IU
200 IU

USA (over 50)
400 IU

400 IU
USA (over 70)

600 IU
600 IU

UK
400 IU

400 IU
Australia

200 IU
200 IU

400 IU
400 IU

The tolerable upper intake limit has been set at 2000 IU per day.
Supplements
-----------

Vitamin D supplements are often available in the form of cod liver
oil. Anyone on long-term anticonvulsant drug therapy, older people,
and those who follow a strict vegan diet may benefit from supplements.
Toxic effects of excess intake
------------------------------

High daily doses of dietary vitamin D over an extended period of time
can produce excessive calcium levels in the blood with symptoms of
unusual thirst, metallic taste, bone pain, fatigue, sore eyes, itching
skin, vomiting, diarrhea, urinary urgency, abnormal calcium deposits
in blood vessel walls, liver, lungs, kidney and stomach. High doses
also cause the build-up of calcium in the muscles which impairs their
function. Doses of less than 1000 IU daily are unlikely to cause any
adverse effects and prolonged exposure to sunlight does not cause
toxic effects.
Large doses of vitamin D can irritate the urinary tract. There may be
a link between excessive vitamin D intake and heart attacks,
atherosclerosis and kidney stones in people who are susceptible.

Very high doses of vitamin D supplements may actually increase the
risk of osteoporosis. In an article published in 1997, researchers at
the Cedars Sinai Medical Center in Los Angeles reported four cases of
osteoporosis linked to excessive use of vitamin D supplements. Each of
the four patients had high levels of calcium and vitamin D metabolites
in their urine and were taking dietary supplements which contained
unidentified amounts of vitamin D. When the patients stopped taking
the supplements, bone mineral density increased. Excessive vitamin D
supplementation for six months or longer upsets calcium balance and
affects bone mineral density.18
Therapeutic uses of supplements
-------------------------------

Supplements are used to treat vitamin D deficiency and its symptoms.
Osteoporosis

Vitamin D is recommended in the treatment of osteoporosis in
postmenopausal women. Several research studies suggest that vitamin D
supplements reduce the occurrence of fractures in elderly people.
In a study published in 1997, researchers at Tufts University in
Boston assessed the effects of calcium (500 mg per day) and vitamin D
(700 IU per day) in 176 men and 213 women aged 65 years or older. When
bone density was measured after a three-year period, those taking the
supplements had higher bone density at all body sites measured. The
fracture rate was also reduced by 50 per cent in those taking the
supplements.19

Vitamin D supplements may also be useful in preventing bone loss in
patients taking corticosteroid drugs. In a study published in 1996,
researchers at the University of Virginia found that calcium and
vitamin D supplements helped prevent the loss of bone mineral density
in those taking the drugs for arthritis, asthma and other chronic
diseases.20
However, other studies have not shown any reduction in fracture rates
in those taking vitamin D supplements. A 1996 study which was carried
out in Amsterdam looked at the effects of either vitamin D or a
placebo on 2500 healthy men and women over the age of 70 who were
living independently. The participants received a placebo or a daily
dose of 400 IU of vitamin D for a three-and-a-half-year period.
Dietary calcium intake was the same in both groups. Forty-eight
fractures were observed in the placebo group and 58 in the vitamin D
group.21

Other uses
Synthetic vitamin D analogs are used to treat the skin disorder,
psoriasis, and are also being investigated for their ability to
prevent and treat cancer.

Because of its effects on the immune system, many researchers are
investigating the possibility of using vitamin D and related compounds
to treat autoimmune disorders and to suppress rejection of
transplanted organs.
Interactions
------------

With other nutrients
Vitamin D is necessary for calcium and phosphorus absorption and
metabolism. Pantothenic acid is necessary for the synthesis of vitamin
D.

With drugs
The cholesterol-lowering drug, cholestyramine, and mineral oil
laxatives interfere with the absorption of vitamin D. Alcohol
interferes with the conversion of vitamin D to its biologically active
form.

People taking certain anticonvulsant drugs, such as phenytoin, may
decrease the activity of vitamin D by increasing its metabolism.
People taking this drug are likely to be at increased risk of
osteoporosis and have high vitamin D requirements
Cautions
--------

Vitamin D supplements should not be given to those with high calcium
levels or high phosphorus levels, and should be given with caution to
those suffering from cardiac or kidney diseases.
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